Microelectronic package with reduced underfill and methods for forming such packages

1. A microelectronic package, comprising: a support member having an interior surface, a first terminal at least proximate to the interior surface, and an exterior surface facing opposite from the interior surface; a microelectronic substrate positioned at least proximate to the support member, the microelectronic substrate having a first surface, a second terminal at least proximate to the first surface, and a second surface facing opposite from the first surface, the first surface of the microelectronic substrate having an outer edge and facing toward the interior surface of the support member with at least a portion of the first surface being spaced apart from the interior surface of the support member to define an intermediate region; at least one conductive coupler positioned in the intermediate region and coupled between the first and second terminals; and a generally electrically non-conductive, non-gaseous material positioned in the intermediate region, the material contacting the interior surface of the support member and the first surface of the microelectronic substrate and having an outer surface recessed inwardly from the outer edge of the microelectronic substrate.

2. The package of claim 1 wherein the at least one conductive coupler includes an outermost conductive coupler, and wherein the outermost conductive coupler is recessed inwardly from the outer edge of the microelectronic substrate by a first distance, further wherein the generally non-conductive material contacts the outermost conductive coupler, and wherein the outer surface of the material is recessed inwardly from the outer edge of the microelectronic substrate by a second distance, the second distance being from about ⅕ to about ⅔ the first distance.

3. The package of claim 1 wherein the first surface of the microelectronic substrate has a first surface area and wherein the generally non-conductive material has a contact surface in contact with the first surface of the microelectronic substrate, and wherein the contact surface has a second surface area with the second surface area smaller than the first surface area.

4. The package of claim 1 wherein the microelectronic substrate has a side surface between the first and second surfaces, and wherein the generally non-conductive material has an outer surface that is discontinuous with the side surface.

5. The package of claim 1 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to at least one of the microelectronic substrate, the support member and the first material.

6. The package of claim 1 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to the microelectronic substrate, the support member and the first material, and wherein the first material forms a generally concave interface with the second material.

7. The package of claim 1 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to the microelectronic substrate, the support member and the first material, and wherein the first material forms a generally convex interface with the second material.

8. The package of claim 1 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to the microelectronic substrate, the support member and the first material, and wherein the second material includes an epoxy mold compound.

9. The package of claim 1 wherein the generally non-conductive material includes an underfill material.

10. The package of claim 1 wherein the microelectronic substrate includes at least one side surface extending between the first and second surfaces, and wherein the generally non-conductive material does not contact any of the side surfaces of the microelectronic substrate.

11. The package of claim 1 wherein the at least one conductive coupler includes a solder ball.

12. The package of claim 1 wherein the at least one conductive coupler is a first conductive coupler, further wherein the package further comprises a second conductive coupler depending from the exterior surface of the support member and configured to electrically couple the support member to devices external to the package.

13. A microelectronic package, comprising: a support member having an interior surface, a first terminal at least proximate to the interior surface, and an exterior surface facing opposite from the interior surface; a microelectronic substrate positioned proximate to the support member with an intermediate region positioned between the support member and the microelectronic substrate, the microelectronic substrate having a first surface with a first surface area facing toward the interior surface of the support member, a second terminal at least proximate to the first surface, and a second surface facing opposite from the first surface; at least one conductive coupler positioned in the intermediate region and coupled between the first and second terminals; and a generally electrically non-conductive, non-gaseous material disposed in the intermediate region, the material being in contact with the interior surface of the support member and the first surface of the microelectronic substrate, the material having a contact surface adjacent to the first surface of the microelectronic substrate, the contact surface having a second surface area, the second surface area being smaller than the first surface area.

14. The package of claim 13 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to at least one of the support member and the microelectronic substrate.

15. The package of claim 13 wherein the first surface of the microelectronic substrate has an outer edge, and wherein the at least one conductive member includes an outermost conductive member, and wherein the outermost conductive member is recessed inwardly from the outer edge of the microelectronic substrate by a first distance, further wherein the generally non-conductive material contacts the outermost conductive member and is recessed inwardly from the outer edge by a second distance, the second distance being from about ⅕ to about ⅔ the first distance.

16. The package of claim 13 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to at least one of the microelectronic substrate, the support member and the first material.

17. The package of claim 13 wherein the microelectronic substrate has a side surface between the first and second surfaces, further wherein the generally non-conductive material has an outer surface that is discontinuous with the side surface.

18. The package of claim 13 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to the microelectronic substrate, the support member and the first material, and wherein the first material forms a generally concave interface with the second material.

19. The package of claim 13 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to the microelectronic substrate, the support member and the first material, and wherein the first material forms a generally convex interface with the second material.

20. The package of claim 13 wherein the microelectronic substrate has at least one side surface between the first and second surfaces, further wherein the generally non-conductive material does not contact any of the side surfaces of the microelectronic substrate.

21. A packaged microelectronic device, comprising: a support member having a first terminal, an interior surface, and an exterior surface facing opposite from the interior surface, the interior surface having a die attach site; a generally non-conductive, non-gaseous fill material disposed at the die attach site while in a flowable state, the fill material covering a first surface area of the interior surface of the support member; a microelectronic substrate having an integrated circuit, a second terminal, a first surface facing toward the die attach site at the interior surface of the support member, and a second surface facing opposite from the first surface, the first surface of the microelectronic substrate having a second surface area greater than the first surface area of the support member, with at least a portion of the first surface of the microelectronic substrate contacting the fill material; and at least one conductive coupler coupled between the first and second terminals.

22. The package of claim 21 wherein the at least one conductive coupler includes an outermost conductive coupler, and wherein the outermost conductive coupler is recessed inwardly from the outer edge of the microelectronic substrate by a first distance, further wherein the generally non-conductive material contacts the outermost conductive coupler, and wherein the outer surface of the material is recessed inwardly from the outer edge of the microelectronic substrate by a second distance, the second distance being from about ⅕ to about ⅔ the first distance.

23. The package of claim 21 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to at least one of the microelectronic substrate, the support member and the first material.

24. The package of claim 21 wherein the first surface of the microelectronic substrate is spaced apart from the interior surface of the support member to define an intermediate region, and wherein the fill material is disposed in the intermediate region.

25. The package of claim 21 wherein the first surface of the microelectronic substrate is spaced apart from the interior surface of the support member to define an intermediate region, and wherein the fill material is disposed in the intermediate region, further wherein the first terminal is positioned at least proximate to the interior surface of the support member and the second terminal is positioned at least proximate to the first surface of the microelectronic substrate, still further wherein the conductive coupler includes a solder ball connected between the first and second terminals.

26. The package of claim 21 wherein the microelectronic substrate includes at least one side surface extending between the first and second surfaces, and wherein the generally non-conductive material does not contact any of the side surfaces of the microelectronic substrate.

27. A microelectronic package, comprising: a support member having an interior surface, a plurality of first terminals at least proximate to the interior surface, and an exterior surface facing opposite from the interior surface; a microelectronic substrate positioned at least proximate to the support member, the microelectronic substrate having a first surface, a plurality of second terminals at least proximate to the first surface, and a second surface facing opposite from the first surface, the first surface of the microelectronic substrate having an outer edge and facing toward the interior surface of the support member with at least a portion of the first surface of the microelectronic substrate being spaced apart from the interior surface of the support member to define an intermediate region; a plurality of conductive couplers positioned in the intermediate region and connected between the first and second terminals; a generally electrically non-conductive, non-gaseous first material disposed in the intermediate region, the first material contacting the first surface of the microelectronic substrate only inwardly from the outer edge; and an encapsulating second material disposed adjacent to at least one of the microelectronic substrate, the support member and the first material.

28. The package of claim 27 wherein the conductive couplers include an outermost conductive coupler, and wherein the outermost conductive coupler is recessed inwardly from the outer edge of the microelectronic substrate by a first distance, further wherein the first material contacts the outermost conductive coupler and has an outer surface extending between the interior surface of the support member and the first surface of the microelectronic substrate, the outer surface of the first material being recessed inwardly from the outer edge of the microelectronic substrate by a second distance, the second distance being from about ⅕ to about ⅔ the first distance.

29. The package of claim 27 wherein the first surface of the microelectronic substrate has a first surface area, and wherein the first material has a contact surface in contact with the first surface of the microelectronic substrate, and wherein the contact surface has a second surface area with the second surface area smaller than the first surface area.

30. The package of claim 27 wherein the first material forms a generally flat interface with the second material.

31. The package of claim 27 wherein the first material forms a generally concave interface with the second material.

32. The package of claim 27 wherein the first material forms a generally convex interface with the second material.

33. The package of claim 27 wherein the microelectronic substrate includes at least one side surface extending between the first and second surfaces of the microelectronic substrate, and wherein the generally non-conductive first material does not contact any of the side surfaces of the microelectronic substrate.

34. The package of claim 27 wherein the conductive couplers include solder balls.

35. The package of claim 27 wherein the first material has a first coefficient of thermal expansion and the second material has a second coefficient of thermal expansion, further wherein the second coefficient of thermal expansion is lower than the first coefficient of thermal expansion.

36. A microelectronic device package, comprising: a support member having an interior surface, a first terminal at least proximate to the interior surface, and an exterior surface facing opposite from the interior surface; a microelectronic substrate positioned at least proximate to the support member, the microelectronic substrate having a first surface, a second terminal at least proximate to the first surface, a second surface facing opposite from the first surface, and a third surface extending between the first and second surfaces, wherein the first surface of the microelectronic substrate faces toward the interior surface of the support member with at least a portion of the first surface being spaced apart from the interior surface of the support member to define an intermediate region; at least one conductive coupler positioned in the intermediate region and connected between the first and second terminals; and a generally electrically non-conductive, non-gaseous material positioned in the intermediate region, the material contacting the interior surface of the support member and the first surface of the microelectronic substrate and being spaced apart from the third surface of the microelectronic substrate.

37. The package of claim 36 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to at least one of the microelectronic substrate and the support member.

38. The package of claim 36 wherein the at least one conductive coupler includes an outermost conductive coupler, and wherein the outermost conductive coupler is recessed inwardly from an outer edge of the first surface of the microelectronic substrate by a first distance, further wherein the generally non-conductive material contacts the outermost conductive coupler and has an outer surface recessed inwardly from the outer edge by a second distance, the second distance being from about ⅕ to about ⅔ the first distance.

39. The package of claim 36 wherein the first surface of the microelectronic substrate has a first surface area and wherein the generally non-conductive material has a contact surface in contact with the first surface of the microelectronic substrate, and wherein the contact surface has a second surface area with the second surface area smaller than the first surface area.

40. The package of claim 36 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to the microelectronic substrate, the support member and the first material.

41. The package of claim 36 wherein the generally non-conductive material has an outer surface that is recessed inwardly from an outer edge of the first surface of the microelectronic substrate.

42. The package of claim 36 wherein the generally non-conductive material has an outer surface recessed inwardly from the third surface of the microelectronic substrate.

43. The package of claim 36 wherein the first surface of the microelectronic substrate includes a polymer layer and the third surface of the microelectronic substrate includes a silicon dioxide layer.

44. A microelectronic package, comprising: a support member having an interior surface, a first terminal at least proximate to the interior surface, and an exterior surface facing opposite from the interior surface; a microelectronic substrate positioned at least proximate to the support member, the microelectronic substrate having a first surface, a second terminal at least proximate to the first surface, and a second surface facing opposite from the first surface, the first surface of the microelectronic substrate having an outer edge and facing toward the interior surface of the support member with at least a portion of the first surface being spaced apart from the interior surface of the support member to define an intermediate region; at least one conductive coupler positioned in the intermediate region and coupled between the first and second terminals; and a generally electrically non-conductive, non-gaseous material positioned in the intermediate region adjacent both an inwardly facing surface and an outwardly facing surface of the at least one conductive coupler, the material contacting the interior surface of the support member and the first surface of the microelectronic substrate and having an outer surface recessed inwardly from the outer edge of the microelectronic substrate.

45. The package of claim 44 wherein the at least one conductive coupler includes an outermost conductive coupler, and wherein the outermost conductive coupler is recessed inwardly from the outer edge of the microelectronic substrate by a first distance, further wherein the generally non-conductive material contacts the outermost conductive coupler, and wherein the outer surface of the material is recessed inwardly from the outer edge of the microelectronic substrate by a second distance, the second distance being from about ⅕ to about ⅔ the first distance.

46. The package of claim 44 wherein the first surface of the microelectronic substrate has a first surface area and wherein the generally non-conductive material has a contact surface in contact with the first surface of the microelectronic substrate, and wherein the contact surface has a second surface area with the second surface area smaller than the first surface area.

47. The package of claim 44 wherein the microelectronic substrate has a side surface between the first and second surfaces, and wherein the generally non-conductive material has an outer surface that is discontinuous with the side surface.

48. The package of claim 44 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to at least one of the microelectronic substrate, the support member and the first material.

49. The package of claim 44 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to the microelectronic substrate, the support member and the first material, and wherein the first material forms a generally flat interface with the second material.

50. The package of claim 44 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to the microelectronic substrate, the support member and the first material, and wherein the first material forms a generally concave interface with the second material.

51. The package of claim 44 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to the microelectronic substrate, the support member and the first material, and wherein the first material forms a generally convex interface with the second material.

52. The package of claim 44 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to the microelectronic substrate, the support member and the first material, and wherein the second material includes an epoxy mold compound.

53. The package of claim 44 wherein the generally non-conductive material includes an underfill material.

54. The package of claim 44 wherein the microelectronic substrate includes at least one side surface extending between the first and second surfaces, and wherein the generally non-conductive material does not contact any of the side surfaces of the microelectronic substrate.

55. The package of claim 44 wherein the at least one conductive coupler includes a solder ball.

56. The package of claim 44 wherein the at least one conductive coupler is a first conductive coupler, further wherein the package further comprises a second conductive coupler depending from the exterior surface of the support member and configured to electrically couple the support member to devices external to the package.

57. A microelectronic package, comprising: a support member having an interior surface, a first terminal at least proximate to the interior surface, and an exterior surface facing opposite from the interior surface; a microelectronic substrate positioned proximate to the support member with an intermediate region positioned between the support member and the microelectronic substrate, the microelectronic substrate having a first surface with a first surface area facing toward the interior surface of the support member, a second terminal at least proximate to the first surface, and a second surface facing opposite from the first surface; at least one conductive coupler positioned in the intermediate region and coupled between the first and second terminals; and a generally electrically non-conductive, non-gaseous material disposed in the intermediate region adjacent both an inwardly and an outwardly facing surface of the at least one conductive coupler, the material being in contact with the interior surface of the support member and the first surface of the microelectronic substrate, the material having a contact surface adjacent to the first surface of the microelectronic substrate, the contact surface having a second surface area, the second surface area being smaller than the first surface area.

58. The package of claim 57 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to at least one of the support member and the microelectronic substrate.

59. The package of claim 57 wherein the first surface of the microelectronic substrate has an outer edge, and wherein the at least one conductive member includes an outermost conductive member, and wherein the outermost conductive member is recessed inwardly from the outer edge of the microelectronic substrate by a first distance, further wherein the generally non-conductive material contacts the outermost conductive member and is recessed inwardly from the outer edge by a second distance, the second distance being from about ⅕ to about ⅔ the first distance.

60. The package of claim 57 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to at least one of the microelectronic substrate, the support member and the first material.

61. The package of claim 57 wherein the microelectronic substrate has a side surface between the first and second surfaces, further wherein the generally non-conductive material has an outer surface that is discontinuous with the side surface.

62. The package of claim 57 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to the microelectronic substrate, the support member and the first material, and wherein the first material forms a generally concave interface with the second material.

63. The package of claim 57 wherein the generally non-conductive material includes a first material, and wherein the package further comprises an encapsulating second material disposed adjacent to the microelectronic substrate, the support member and the first material, and wherein the first material forms a generally convex interface with the second material.

64. The package of claim 57 wherein the microelectronic substrate has at least one side surface between the first and second surfaces, further wherein the generally non-conductive material does not contact any of the side surfaces of the microelectronic substrate.